E-Ink did several things right in navigating challenges:
1. They formed SWAT teams to quickly address issues like speed and power consumption.
2. They reduced staff and shut down an underperforming plant to cut costs.
3. Partnering with Toppan Printing connected them with Sony, an important potential customer.
4. They focused on becoming a materials supplier rather than building full displays, licensing technology, or assembling subcomponents.
E ink is an electronic paper display invented in 1996 at MIT. It uses microcapsules containing charged black and white pigment particles that are moved to the top or bottom of the capsule by electric fields to display text and images. E ink displays are used in e-readers and other devices because they are bi-stable, require no power to maintain a display, and can be read in direct sunlight. The document discusses the history, working mechanism, applications, advantages like low power consumption, and future uses of e ink technology.
E Ink is developing new applications of its electronic paper technology, allowing it to be integrated into various surfaces beyond e-readers. This includes dynamic architectural elements, signage, and smart home interfaces. E Ink aims to replace static paper and displays with flexible, interactive surfaces that can change in response to sensors or user input. This would enable new functionalities across many industries while maintaining the benefits of E Ink's low-power and sunlight readable paper-like display qualities.
Electronic ink is a new technology that allows for reusable and rewritable paper-like displays. It uses microcapsules filled with charged pigment particles that can be manipulated by electric fields to appear black or white. When applied to paper pages, it allows books to function like e-readers with updatable content. Two main approaches are E Ink's use of electrophoresis to move particles in microcapsules, and Xerox's use of rotating black and white balls in microcapsules. Electronic ink provides benefits over traditional paper like dynamic updates and a whole library in one reusable book.
Electronic paper, or e-paper, was developed in the 1970s and uses electrophoretic technology to provide a paper-like reading experience with updatable digital content. E-paper uses microcapsules between two electrode layers containing positively and negatively charged pigment particles that migrate to the top of the capsule when different electric fields are applied. This allows e-paper to display text and images using low power. E-paper provides advantages over LCD displays like a paper-like appearance, very low power consumption, flexibility, and images that can be read in sunlight without backlighting. Applications include e-readers, watches, newspapers, and some phones. Manufacturers continue working to expand e-paper capabilities and commercial applications
The document provides information about e-ink technology, including its history, working principle, variants, applications, advantages, and future scope. E-ink technology uses electrically charged pigments in microcapsules that can be moved around using an electric field to create an electronic paper display. It is used in applications such as e-readers, watches, phones, and other devices to create low-power, sunlight readable displays.
E-paper, also known as electronic paper or electronic ink display, was first developed in the 1970s. It reflects light like ordinary paper, making it more comfortable to read than backlit displays. E-paper is extremely light and flexible. It consists of a front plane with electronic ink microcapsules and a back plane of circuitry. The microcapsules contain charged white and black particles that move to the top when electric fields are applied, making the surface appear white or black. E-paper technologies include gyricon, electrophoretic display, and electrowetting. E-paper has a wide viewing angle, is readable in sunlight, holds images without power, and has low power consumption. However, it
This document discusses e-paper displays. E-paper is a portable, reusable electronic display that uses e-ink technology and is non-backlit. It works by applying a voltage to migrate charged particles and form visible images. E-paper comes in both flexible and non-flexible types and has applications in digital tags, price boards, books, newspapers, magazines, and mobile phones. It offers advantages like flexibility, low power consumption, and reduced paper usage. Challenges include less attractive visuals compared to LCD and difficulty reading in low light. The future potential of e-paper includes digitizing textbooks and changing how news is delivered.
E-Ink did several things right in navigating challenges:
1. They formed SWAT teams to quickly address issues like speed and power consumption.
2. They reduced staff and shut down an underperforming plant to cut costs.
3. Partnering with Toppan Printing connected them with Sony, an important potential customer.
4. They focused on becoming a materials supplier rather than building full displays, licensing technology, or assembling subcomponents.
E ink is an electronic paper display invented in 1996 at MIT. It uses microcapsules containing charged black and white pigment particles that are moved to the top or bottom of the capsule by electric fields to display text and images. E ink displays are used in e-readers and other devices because they are bi-stable, require no power to maintain a display, and can be read in direct sunlight. The document discusses the history, working mechanism, applications, advantages like low power consumption, and future uses of e ink technology.
E Ink is developing new applications of its electronic paper technology, allowing it to be integrated into various surfaces beyond e-readers. This includes dynamic architectural elements, signage, and smart home interfaces. E Ink aims to replace static paper and displays with flexible, interactive surfaces that can change in response to sensors or user input. This would enable new functionalities across many industries while maintaining the benefits of E Ink's low-power and sunlight readable paper-like display qualities.
Electronic ink is a new technology that allows for reusable and rewritable paper-like displays. It uses microcapsules filled with charged pigment particles that can be manipulated by electric fields to appear black or white. When applied to paper pages, it allows books to function like e-readers with updatable content. Two main approaches are E Ink's use of electrophoresis to move particles in microcapsules, and Xerox's use of rotating black and white balls in microcapsules. Electronic ink provides benefits over traditional paper like dynamic updates and a whole library in one reusable book.
Electronic paper, or e-paper, was developed in the 1970s and uses electrophoretic technology to provide a paper-like reading experience with updatable digital content. E-paper uses microcapsules between two electrode layers containing positively and negatively charged pigment particles that migrate to the top of the capsule when different electric fields are applied. This allows e-paper to display text and images using low power. E-paper provides advantages over LCD displays like a paper-like appearance, very low power consumption, flexibility, and images that can be read in sunlight without backlighting. Applications include e-readers, watches, newspapers, and some phones. Manufacturers continue working to expand e-paper capabilities and commercial applications
The document provides information about e-ink technology, including its history, working principle, variants, applications, advantages, and future scope. E-ink technology uses electrically charged pigments in microcapsules that can be moved around using an electric field to create an electronic paper display. It is used in applications such as e-readers, watches, phones, and other devices to create low-power, sunlight readable displays.
E-paper, also known as electronic paper or electronic ink display, was first developed in the 1970s. It reflects light like ordinary paper, making it more comfortable to read than backlit displays. E-paper is extremely light and flexible. It consists of a front plane with electronic ink microcapsules and a back plane of circuitry. The microcapsules contain charged white and black particles that move to the top when electric fields are applied, making the surface appear white or black. E-paper technologies include gyricon, electrophoretic display, and electrowetting. E-paper has a wide viewing angle, is readable in sunlight, holds images without power, and has low power consumption. However, it
This document discusses e-paper displays. E-paper is a portable, reusable electronic display that uses e-ink technology and is non-backlit. It works by applying a voltage to migrate charged particles and form visible images. E-paper comes in both flexible and non-flexible types and has applications in digital tags, price boards, books, newspapers, magazines, and mobile phones. It offers advantages like flexibility, low power consumption, and reduced paper usage. Challenges include less attractive visuals compared to LCD and difficulty reading in low light. The future potential of e-paper includes digitizing textbooks and changing how news is delivered.
The document discusses the iPhone and Zoom H-4n audio recorder. In a few short sentences, it mentions two popular devices, the iPhone and Zoom H-4n audio recorder, without providing many details about either product.
The document provides tips for creating effective PowerPoint presentations and video lectures. It discusses preparing for a video lecture by considering clothing, hair, makeup, content planning, writing, rehearsing, body language, voice, eye contact, and virtual interaction. Postproduction topics include storyboarding, editing, transcoding, and publishing. Usage addresses implementing recordings in courses through testing, tasks. Additional tips include using visuals like pictures as metaphors with affective and cognitive appeal emphasizing beauty, size, speed and colorfulness. The document recommends an unbalanced layout that makes rhythm, using available area without centering objects, and choosing fonts and colors carefully. It prompts remembering which bullets and images stood out and provides examples of presentation design tools.
Real great achievements and inventions have been made over many years. Generally, inventions are named after the inventor, but sometimes the innovator who improved an invention is given credit instead if the original inventor is unknown. The document then discusses how to detect gaps in learning and how to bridge them, as well as tools that can be used for visual media like photos, videos, and 3D animation. These include software like Photoshop and apps for filming, editing, and distributing content online.
This document provides tips for creating effective PowerPoint presentations. It discusses avoiding too much information by limiting content to 5 bullets, words, or thoughts per slide. It also discusses preparing and filming video lectures, including planning content, rehearsing, body language, voice, and eye contact. Additional tips include using visual information like pictures as metaphors, emphasizing aesthetic qualities, using different fonts but keeping the same font family, avoiding centering objects, using the whole slide area, and creating an unbalanced rhythm.
Adobe ConnectNow allows users to easily hold online meetings and presentations. It provides a simple way for groups to meet, share screens, and collaborate in real-time regardless of location. ConnectNow offers a free version for basic online meetings and screen sharing with up to 3 participants.
The document discusses the iPhone and Zoom H-4n audio recorder. In a few short sentences, it mentions two popular devices, the iPhone and Zoom H-4n audio recorder, without providing many details about either product.
The document provides tips for creating effective PowerPoint presentations and video lectures. It discusses preparing for a video lecture by considering clothing, hair, makeup, content planning, writing, rehearsing, body language, voice, eye contact, and virtual interaction. Postproduction topics include storyboarding, editing, transcoding, and publishing. Usage addresses implementing recordings in courses through testing, tasks. Additional tips include using visuals like pictures as metaphors with affective and cognitive appeal emphasizing beauty, size, speed and colorfulness. The document recommends an unbalanced layout that makes rhythm, using available area without centering objects, and choosing fonts and colors carefully. It prompts remembering which bullets and images stood out and provides examples of presentation design tools.
Real great achievements and inventions have been made over many years. Generally, inventions are named after the inventor, but sometimes the innovator who improved an invention is given credit instead if the original inventor is unknown. The document then discusses how to detect gaps in learning and how to bridge them, as well as tools that can be used for visual media like photos, videos, and 3D animation. These include software like Photoshop and apps for filming, editing, and distributing content online.
This document provides tips for creating effective PowerPoint presentations. It discusses avoiding too much information by limiting content to 5 bullets, words, or thoughts per slide. It also discusses preparing and filming video lectures, including planning content, rehearsing, body language, voice, and eye contact. Additional tips include using visual information like pictures as metaphors, emphasizing aesthetic qualities, using different fonts but keeping the same font family, avoiding centering objects, using the whole slide area, and creating an unbalanced rhythm.
Adobe ConnectNow allows users to easily hold online meetings and presentations. It provides a simple way for groups to meet, share screens, and collaborate in real-time regardless of location. ConnectNow offers a free version for basic online meetings and screen sharing with up to 3 participants.
3. e-ink vs LCD
batteritid
internt minne – USB
mp3-ljudböcker
sökfunktion
knappnavigering – touch
anteckningar / bokmärken
syntetisk uppläsning
TRITONIA
ordböcker
Läsplatta Peter Ahlroos
4. DRM digital rights management
betalare verk
34539487 756745
unik ID
TRITONIA
DRM
Peter Ahlroos
5. DRM digital rights management
betalare verk
din@mail
TRITONIA
DRM
Peter Ahlroos
6. format
ePub – öppna/skyddade
azw – Amazons slutna format
mobi – öppna/skyddade
doc, pdf, rtf
TRITONIA
E-böcker
Peter Ahlroos
7. TRITONIA Peter Ahlroos
http://en.wikipedia.org/wiki/Comparison_of_e-book_formats#Comparison_tables
8. Tietokanta Yhteensopivuus lukulaitteiden kanssa
DawsonEra Ei
Ebrary Ei (tulossa)
Ellibs Kyllä, mutta hankala käyttää
Elsevier Kyllä, helppo käyttää
SpringerLINK Kyllä, helppo käyttää
MyiLibrary Ei
Safari Ei
TRITONIA
OECD Kyllä, helppo käyttää
WSOY Ei
Peter Ahlroos
9. Adobe Digital Editions
Ellibs, Vasa stadsbibliotek, Elib, Suomalainen
kirjakauppa, Akademiska bokhandeln, Adlibris...
TRITONIA Peter Ahlroos
- Vain17 % Aalto –yliopiston e-kirjoista on yhteensopivia lukulaitteiden kanssa (tutkimus)- Useimpien tietokantojen e-kirjat eivät ole yhteensopivia lukulaitteiden kanssa- Ilmaisia e-kirjoja on jonkin verran tarjolla, yhtenä esimerkkinä Projekti Gutternberg, josta löytyy paljon klassikoita eri kielillä -> NÄYTÄTulossa EBSCOn uusi e-kirjatietokanta, jossa yhteensopivuus lukulaitteiden kanssa (ei Kindle), myös EBRARY ottamassa käyttöön lukulaitesopivia formaatteja (myös Kindle)Kirjastot vs. yksityinen kuluttaja